A comparison of modeling frameworks for the oscillatory silicon electrodissolution

Konrad Schönleber; Maximilian Patzauer; Katharina Krischer

doi:10.1016/j.electacta.2016.05.144

A comparison of modeling frameworks for the oscillatory silicon electrodissolution

Konrad Schönleber, Maximilian Patzauer, Katharina Krischer

Associate Professorship of Technical Physics

Technical University of Munich

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

The emergence of oscillations during the silicon electrodissolution has often been tackled using a framework where the global oscillatory signal is seen as the outcome of a synchronization of self-oscillatory microdomains with a certain frequency distribution. It is the main objective of this publication to reject this widely adopted modeling framework by showing that it is incompatible with spatially resolved experiments. Instead, we propose a fundamentally different modeling framework where the system is seen as an oscillatory medium.

Original language	English
Pages (from-to)	346-351
Number of pages	6
Journal	Electrochimica Acta
Volume	210
DOIs	https://doi.org/10.1016/j.electacta.2016.05.144
State	Published - 20 Aug 2016

Keywords

Electrochemical oscillations
Oscillatory medium
Silicon electrochemistry
Synchronization

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10.1016/j.electacta.2016.05.144

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abstract = "The emergence of oscillations during the silicon electrodissolution has often been tackled using a framework where the global oscillatory signal is seen as the outcome of a synchronization of self-oscillatory microdomains with a certain frequency distribution. It is the main objective of this publication to reject this widely adopted modeling framework by showing that it is incompatible with spatially resolved experiments. Instead, we propose a fundamentally different modeling framework where the system is seen as an oscillatory medium.",

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N2 - The emergence of oscillations during the silicon electrodissolution has often been tackled using a framework where the global oscillatory signal is seen as the outcome of a synchronization of self-oscillatory microdomains with a certain frequency distribution. It is the main objective of this publication to reject this widely adopted modeling framework by showing that it is incompatible with spatially resolved experiments. Instead, we propose a fundamentally different modeling framework where the system is seen as an oscillatory medium.

AB - The emergence of oscillations during the silicon electrodissolution has often been tackled using a framework where the global oscillatory signal is seen as the outcome of a synchronization of self-oscillatory microdomains with a certain frequency distribution. It is the main objective of this publication to reject this widely adopted modeling framework by showing that it is incompatible with spatially resolved experiments. Instead, we propose a fundamentally different modeling framework where the system is seen as an oscillatory medium.

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KW - Oscillatory medium

KW - Silicon electrochemistry

KW - Synchronization

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ER -

A comparison of modeling frameworks for the oscillatory silicon electrodissolution

Abstract

Keywords

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